Skeletal Systems General Properties of Skeletons Connective tissues important in support Collagen/tropocollagen molecules Molecular rope Pack closely together due to glycine content Not elastic so good for support Endoskeletons and Exoskeletons Composite materials made of fibers embedded in mineral salts or organic polymers Ex Bone Skeletons must withstand forces Compression Tension Shear Torsion Stiffness strength Endoskeletons and Exoskeletons Cost benefit anaylsis Exoskeletons Stiffer but not as strong Provide excellent support for muscle based movement Increase in strength requires increase in weight Animal must molt to grow skeleton limits space for growth (predation hazard) Endoskeletons and Exoskeletons Cost benefit anaylsis Endokeletons
No limit on space for growth ( no molting necessary) Allows larger body size Soft tissues prevent skeletal damage Excellent protection for internal organs (heart/lungs) Hydrostatic support from body fluid between cells Hydrostatic -of or relating to fluids at rest or to the pressures they exert or transmit Water is incompressible and transmits force in all directions apply force to the fluid and it will be transferred to the body wall Like a soft hose stiffening when filled with water A hydrostatic skeleton manipulated by muscles can cause hydraulic movement Ex. Squeeze a balloon at one end Cnidarians (hydrazoa and anthozoa) rely on hydrostatic support and hydraulic movement Bivalve molluscs use hydraulic mechinism to extent foot. Longitudinal and Circular muscles create peristalsis as the exert pressure on the hydrostatic skeleton See animation Good for burrowing or crawling Circular wave push front end forward Longitudinal contractions broaden the worm making it push against the burrow
Advantages Add little weight to the animal Little energy needed to carry them around Disadvantages Precise, local movements difficult Contraction in one region stretches muscles in another region Punctures of body immobilize the animal Cnidarians Hydra fluids in the gastrovascular cavity act as a skeleton 3 layers epidermis mesoglea gastrodermis. Collagen fibers pass spirally around the body Perisarc- a delicate exoskeleton secreted by some cnidarians (chitinous) Anthozoans corals secrete an exoskeleton of calcium carbonate Hydra Cell Types Platyhelmintheyes Connective tissue and interstitial fluid are the main support Remember acoelomates! Body covered by one cell layer of fiberous basal lamina Cestoda and Trematoda have synctial epidermus called a tegument (absorption) Provides body support, resists digestion.
Triploblastic Body Design based on Hickman Fig. 14-3 Nematoda One cell thick outer layer that secretes multilayered cuticle Spiral layers of collagen fibers High pressure up to 120 mm Hg Provides strong hydroskeletal support Annelida Flexible cuticle secreted by epidermis Circular and longitudinal muscles in the cell wall Septa divide the animal into metameres Septa allow different pressures in different metameres Creates ability to have more extensive movements Animals with Exoskeletons Arthropoda Have a rigid jointed exoskeleton Trichogen cells produce setae Cuticle
mainly chitin Layers Endocuticle, exocuticle, epicuticle Hardness determined by sclerites (plates of cuticle) tough, flexible, glucose-amine polymer stiffened with calcium carbonate in crustaceans permeable but resists chemicals waterproofed with waxes in insects protection, support, muscle attachment Exoskeleton Structure Molting Controlled hormonally (ecdysone hormone) Epidermis secretes molting fluid Epidermis secretes new cuticle (procuticle) Molting fluid dissolve the old cuticle Animal swallows air or water and enlarges, splitting the old cuticle New cuticle is hardened with sclerites Animation http://www.aloha.net/~smgon/sutures.htm Mollusca External, rigid, calcerous shell in most for protection of the soft body. Shell produced by mantle 3 layers Outer = perisostracum (conchiolin) Middle= prismatic layer Inner = nacerous layer ( alternating layers of calcium and proteoglycan layers) Animals with Endoskeletons Porifera Body of 2 layers
Pinacocyte layer on outside and lining cavities Choanocyte layer on inside Gelatinous mesohyl in between Ameobocytes secrete spongin (spongocytes) and spicules (sclerocytes) Porifera Echinodermata Integument of thin ciliated epidermis Underlying connective tissue dermis Dermis produces ossicles Ossicles made from Mg and Ca carbonate crystals bound together by collagen Sea Urchins (asteroidea) Test (shell) made of platelike ossicles to create a hemispherical endoskeleton Spines ( in sockets and movable) project from the ossicles Endoskeletal notochord semi-rigid rod extending the length of the body Made from large fluid filled cells encased in concentric sheathes of connective tissue Rigidity from hydrostatic pressure in the cells Notochord replaced by vertebral column Vertebral skeleton 2 parts Axial skeleton (skull, vertebral column, ribs)
Appendicular skeleton supports girdles (pectoral and pelvic) Articulated skeleton (contains joints) Sutures (immovable joints) Bones held together at movable joints by tendons and ligaments Ends of bones coated with aticular cartilage to reduce wear Joints lubricated with synovial fluid Appendages Structure reflects mode of locomotion Convergence Bat (hand) vs Bird wing 689-691 Functions of the Vertebral Skeleton Supporting the load of the body Amphibian skeletons project laterally and bear less weight whereas bird and mammal skeletons are positioned under the body and bear more of a load Arched for supporting the weight of visceral below it. ( like a suspension bridge) Load Bearing Muscles and skeleton work together Bones bear shear and torsion, muscles bear load Ex jumping on femur bone and bowing Protection Mineral storage 188 Functions of the Vertebral Skeleton Protection Operculum protects gills Skull protects brain and inner ear Sockets protect eyes Ribs protect heart and lungs
188 Functions of the Vertebral Skeleton Mineral Storage Calcium and Phosphorous reservoir Calcium parathormone and calcitonin Vertebrate Skeletal Materials Cartilage Connective tissue formed by chodrocytes Matrix of collagen fibers and proteoglycans joined by hyaluronic acid, with chondroitin sulfate and keratan sulfate Vertebrate Skeletal Materials ( 190) Bone Long bone Hollow tube (diaphysis) with expanded hollow end (epiphysis) Bone marrow in cavity Outer surface = periosteum attachment of tendons and ligaments Compact vs spongy bone Nutrient canals, osteons, haversian systems Lacunae, osteocytes, canaliculi Vertebrates have skeleton of fibrous connective tissue cartilage or bone Bone formation Endochondral bone formation (1) Fibrous connective tissue (2) cartilage
(3) osteocytes and bone matrix Dermal (membrane) bone (1) fibrous connective tissue (2) bone Visceral and Somatic components Gill arches Formerly filter feeding structures